Transcript Ch03b-1

Chapter 3
Cells and Tissues
Cellular Physiology:
Membrane Transport
 Membrane Transport – movement of
substance into and out of the cell
 Transport is by two basic methods
 Passive transport
 No energy is required
 Active transport
 The cell must provide metabolic energy
Solutions and Transport
 Solution – homogeneous mixture of two
or more components
 Solvent – dissolving medium
 Solutes – components in smaller quantities
within a solution
 Intracellular fluid – nucleoplasm and
cytosol
 Interstitial fluid – fluid on the exterior of
the cell
Selective Permeability
 The plasma membrane allows some
materials to pass while excluding others
 This permeability includes movement
into and out of the cell
Passive Transport Processes
 Diffusion
 Particles tend to distribute themselves evenly
within a solution
 Movement is
from high
concentration
to low
concentration,
or down a
concentration
gradient
Passive Transport Processes
 Types of diffusion
 Simple diffusion
 Unassisted process
 Solutes are lipid-soluble materials or
small enough to pass through membrane
pores
Passive Transport Processes
 Types of diffusion
 Osmosis – simple diffusion of water
 Highly polar water easily crosses the
plasma membrane
 Facilitated diffusion
 Substances require a protein carrier for
passive transport
Diffusion through the Plasma
Membrane
Passive Transport Processes
 Filtration
 Water and solutes are forced through a
membrane by fluid, or hydrostatic pressure
 A pressure gradient must exist
 Solute-containing fluid is pushed from a
high pressure area to a lower pressure
area
Active Transport Processes
 Transport substances that are unable to pass
by diffusion
 They may be too large
 They may not be able to dissolve in the fat core
of the membrane
 They may have to move against a concentration
gradient
 Two common forms of active transport
 Solute pumping
 Bulk transport
Active Transport Processes
 Solute pumping
 Amino acids, some sugars and ions are
transported by solute pumps
 ATP energizes protein carriers, and in most
cases, moves substances against
concentration gradients
Active Transport Processes
Active Transport Processes
 Bulk transport
 Exocytosis
 Moves materials out of the cell
 Material is carried in a membranous vesicle
 Vesicle migrates to plasma membrane
 Vesicle combines with plasma membrane
 Material is emptied to the outside
Active Transport Processes
Active Transport Processes
 Bulk transport
 Endocytosis
 Extracellular substances are engulfed by
being enclosed in a membranous vesicle
 Types of endocytosis
 Phagocytosis – cell eating
 Pinocytosis – cell drinking
Active Transport Processes
Cell Life Cycle
 Cells have two major periods
 Interphase
 Cell grows
 Cell carries on metabolic processes
 Cell division
 Cell replicates itself
 Function is to produce more cells for
growth and repair processes
DNA Replication
 Genetic material
duplicated and readies a
cell for division into two
cells
 Occurs toward the end
of interphase
 DNA uncoils and each
side serves
as a template
Events of Cell Division
 Mitosis
 Division of the nucleus
 Results in the formation of two daughter nuclei
 Cytokinesis
 Division of the cytoplasm
 Begins when mitosis is near completion
 Results in the formation of two daughter cells
Stages of Mitosis
 Interphase
 No cell division occurs
 The cell carries out normal metabolic
activity and growth
 Prophase
 First part of cell division
 Centrioles migrate to the poles
Stages of Mitosis
 Metaphase
 Spindle from centrioles are attached to
chromosomes that are aligned in the center
of the cell
Stages of Mitosis
 Anaphase
 Daughter chromosomes are pulled toward the
poles
 The cell begins to elongate
 Telophase
 Daughter nuclei begin forming
 A cleavage furrow (for cell division) begins to
form
Stages of Mitosis
Stages of Mitosis
Protein Synthesis
 Gene – DNA segment that carries a
blueprint for building one protein
 Proteins have many functions
 Building materials for cells
 Act as enzymes (biological catalysts)
 RNA is essential for protein synthesis
Role of RNA
 Transfer RNA (tRNA)
 Transfers appropriate amino acids to the
ribosome for building the protein
 Ribosomal RNA (rRNA)
 Helps form the ribosomes where proteins are
built
 Messenger RNA
 Carries the instructions for building a protein
from the nucleus to the ribosome
Transcription and Translation
 Transcription
 Transfer of information from DNA’s base
sequence to the complimentary base sequence
of mRNA
 Translation
 Base sequence of nucleic acid is translated to
an amino acid sequence
 Amino acids are the building blocks of proteins
Protein Synthesis